|Publication number||US6945730 B1|
|Application number||US 10/872,387|
|Publication date||Sep 20, 2005|
|Filing date||Jun 22, 2004|
|Priority date||Apr 30, 2004|
|Also published as||CA2472112A1|
|Publication number||10872387, 872387, US 6945730 B1, US 6945730B1, US-B1-6945730, US6945730 B1, US6945730B1|
|Inventors||Graham C. Lobban|
|Original Assignee||Rts Plastics Inc., Redico, Inc.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (71), Referenced by (20), Classifications (10), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application claims the benefit of U.S. Provisional Application No. 60/566,399, filed Apr. 30, 2004.
This invention is related to a bollard to be mounted to a base.
Bollards which protect structures or machines in industrial, commercial and institutional premises are known. For example, a cement post (formed in situ) is often used as a bollard, to protect an exterior wall of a building or some other structure. Another typical bollard for exterior use is a steel post which is inserted into a base, typically gravel or soil. Often, the steel post bollard is cemented in place in the base. Yet another known bollard for exterior use is a steel post which has been filled with cement.
Bollards for interior use, which are used to protect interior walls, structural elements of the building, or machinery or displays, also can be cement, steel, or cement-and-steel posts placed in or on a floor. However, bollards are also known which are for use in retail premises, for example, to prevent collisions of shopping carts with equipment such as freezers and refrigerators. Such known bollards are often relatively heavy, and usually are permanently installed.
However, known bollards suffer from a number of defects. Whether for interior or exterior use, the typical bollard is constructed to withstand a relatively strong blow, and because of this, many known bollards are relatively heavy and of solid construction, and most are permanently installed. Accordingly, removal of known bollards is usually difficult. Because most known bollards are installed so that their removal is only achievable with great effort and difficulty, they are not removed until replacement. However, the temporary removal of an interior bollard is often desirable, for example, to permit easier cleaning of a floor surface in the vicinity of the bollard. Also, moving a bollard is sometimes desirable, in connection with remodelling or reconfiguration of the premises, which typically is required from time to time.
U.S. Pat. No. 6,260,237 (McCue et al.) discloses a bollard for interior use which is intended to be relatively lightweight and is also intended to be relatively easily removed. However, the bollard disclosed in McCue et al. includes a leg structure secured to a rear wall of the bollard's body and a horizontal rail secured to a front wall of the body. The rear wall includes an upper retainer housing and a lower retainer housing in which the leg structure is retained.
The bollard disclosed in McCue et al. suffers from the defect that it includes a relatively large number of discrete parts. The cost of manufacturing this bollard may therefore be relatively high. Also, because the parts are discrete, one or more parts of the McCue et al. bollard may separate after prolonged usage.
There is therefore a need for an improved bollard for mounting to a base.
In a broad aspect, the invention provides a bollard to be positioned in a predetermined location on a base. The bollard has an elongate body and a mounting element integrally attached to the body. The mounting element is adapted to be positioned in the base in the predetermined location, to locate the body on the base.
In another aspect, the mounting element has one or more posts for insertion in one or more holes in the base, to position the post at the predetermined location.
In yet another aspect, the body includes a front wall and a substantially opposed rear wall and the mounting element includes one or more connecting members connecting the posts to the front wall, the connecting members being integrally secured in the front wall.
In yet another aspect, each connecting member includes an interior part with a wall contact portion integrally secured to the front wall and an external part extending outside the body to the exposed part of the bumper.
In another aspect, the invention provides a bollard assembly adapted to be positioned on a base. The bollard assembly includes a bollard and one or more receptacles. The bollard has an elongate body with a bottom end adapted for engagement with the base, and a mounting element for mounting the body to the base. The mounting element has an internal portion positioned inside the body and integrally attached to the body, and one or more external portions connected to said at least one internal portion. Each external portion of the mounting element extends from the bottom end of the body, and the body is located on the base by the external portion. Each receptacle is adapted for positioning in the base and receiving one of the external portions so that the bottom end engages the base.
In yet another aspect, each receptacle includes a housing defining a hole in which the external portion is receivable. The housing has a housing bottom end, to be located in the base, and a housing top end, positioned distal to the housing bottom end. The receptacle also includes a flange portion extending transversely from the top end of the housing, for cooperating with a top surface of the base to sit on the surface, and thereby to locate the bottom end of the housing a predetermined depth below the surface.
In yet another aspect, the invention provides a bollard to be mounted on a base. The bollard includes an elongate body having a bottom end adapted for engagement with the base, and a mounting element for mounting the body to the base. The mounting element has an internal portion positioned at least partly inside the body and integrally attached to the body, and one or more external portions connected to the internal portion. The external portion extends from the bottom end of the body and is adapted to locate the body on the base.
In yet another aspect, the invention provides a method of mounting a bollard on a base. The method includes, as a first step, providing a bollard having an elongate body with a bottom end adapted for engagement with the base and a mounting element for mounting the body to the base. Next, providing one or more holes in the base in which one or more external portions are receivable. Finally, inserting the external portion into the hole.
The invention will be better understood with reference to the attached drawings, in which:
Reference is first made to
Preferably, the mounting element 18 has one or more posts 19. Each post 19 is adapted for insertion in one or more holes 20 in the base 12, to position the post 19 in the predetermined location. In the preferred embodiment, the post 19 is receivable in the hole 20 in a clearance fit between the post 19 and the hole 20. Because the post 19 fits into the hole 20 in a clearance fit, the post 19 is easily removable from the hole 20. The post 19 includes an external part 24 which extends beyond the body 14 and is receivable in the hole 20.
The mounting element 18 has an internal portion 22 which is integrally attached to the body 14 (as will be described), and one or more external portions 23 connected to the internal portion 22. The external portion 23 is adapted to be mounted to the base 12 for supporting the body 14 above the base 12. As can be seen in
Preferably, the body 14 includes a substantially hollow tube 30 with a body wall 32 having an exterior surface 33. In the preferred embodiment, the tube 30 is substantially defined by a longitudinal axis 34 (
In the preferred embodiment, the mounting element 18 additionally includes a bumper 40 connected to the post 19 by one or more connecting members 42. Preferably, each connecting member 42 includes an internal part 44 with a wall contact portion 45 (
It will be appreciated by those skilled in the art that the bumper 40 could be connected to the post 19 by a variety of structures. In the preferred embodiment, a plurality of connecting members 42 connect the bumper 40 and the post 19. The connecting members 42 are preferably in the form of spokes, or rods, extending radially from the post 19 and positioned substantially radially equidistant from each other. Although a mounting element which includes spokes is relatively cost-effective and light-weight, however, other structures could be used to function as one or more connecting members. The mounting element 18 is preferably made of stainless steel or any other suitable material.
Preferably, the wall 32 is manufactured from commercial grade UV-stabilized polyethylene resin, or any other suitable plastic. The body 14 is preferably formed by rotational molding. The mounting element 18 is integrally molded into the wall 32 when the body 14 is rotationally molded. Accordingly, before the body 14 is created, the mounting element 18 is positioned in the mold (not shown). Heated plastic material which will form the body 14 is then added to the mold.
As is known in the art, in rotational molding, the heated plastic is subjected to centrifugal force, developed by rotating the mold at high speed. The plastic body 14 formed in this way is virtually stress-free, and the wall 32 is of substantially uniform thickness. The body 14 can be formed with plastic material having any of a variety of colors. As the plastic material cools, the plastic bonds to the wall contact portion 45 of the connecting member 42, so that the mounting element 18 is thereby integrally coupled to the body 14.
The body 14 preferably includes an end cap 48 positioned around the post 19 and extending from the post 19 to the wall 32. The end cap 48 preferably includes a central portion 49 located adjacent to the post 19. As can be seen in
The end cap 48 is formed in the rotational mold when the tube 30 is formed, and the end cap 48 is integrally coupled to the wall 32 accordingly. As can be seen in
Preferably, and as can be seen in
In the preferred embodiment, and as shown in
A receptacle 60, to be positioned in the base 12 for receiving the external portion 23 of the mounting element 18, is shown in
The preferred embodiment of a bollard assembly 61 of the invention includes the bollard 10 and the receptacle 60 (
In use, the hole 20 is provided in the base or floor 12 (
Where the bollard 10 is to be mounted in an interior location, the receptacle 60 is preferably positioned in the hole 20 in the floor 12. The flange portion 68 cooperates with the surface 54 of the floor 12 to position the bottom end 64 of the housing 62 at a preselected depth below the surface 54. The external portion 23 is preferably inserted into the hole 63 of the receptacle 60 in a clearance fit. Where the external portion 23 is received in a clearance fit, the external portion 23 is easily removable from the receptacle 60, for example, to permit cleaning of the floor surface 54 in the vicinity of the receptacle 60.
As shown in
Similarly, the configuration of the central portion 49 of the end cap 48 (i.e., so that the central portion 49 arches above the surface 54 when the bollard 10 is mounted to the base 12) permits proper seating of the body 30 on the base 12 when the bollard 10 is used without the receptacle 60. As shown in
It will be appreciated by those skilled in the art that the receptacle 60, although preferred, is not needed for interior installations. For example, the external part 26 of the post 19 can be inserted directly into the hole 20 in the floor 12. Also, an interference fit may be used instead of a clearance fit, for example, where the bollard 10 is not intended to be moved frequently, or at all.
Additional embodiments of the invention are shown in
An alternative embodiment 110 of the bollard of the invention includes a body 114 in which a mounting element 118 is integrally secured. The bollard 110 is intended primarily for exterior use, as will be described. The mounting element 118 includes a post 126 with a first end 127 positioned distal to a bottom end 116 of the body 114. The body 114 includes a substantially hollow tube 130 with a body wall 132, the tube 130 being substantially coaxial with a longitudinal axis 134. In addition, the post 126 includes an aperture 129 in the first end 127 positioned substantially transverse to the longitudinal axis 134. The bollard 110 also includes a retainer pin 131 which is receivable in the aperture 129, for retaining the first end 127 in the base 12.
Preferably, and as shown in
Similarly, the post 126 includes a cap contact portion 151 which is integrally attached to an end cap 148 at a central portion 149 thereof. As shown in
In use, the retainer pin 131 is inserted in the aperture 129, after which an external part 124 of the post 126 is inserted into a hole 20 (
An alternative embodiment 210 of the bollard is shown in
As can be seen in
The body 214 has a front wall 280 with a front exterior surface 281 and a substantially opposed rear wall 282. The front and rear walls 280, 282 preferably extend throughout the side portions 277, 279 and the central portion 275. As can be seen in
The mounting element 218 is integrally attached to the front wall 280 of the body 214. The posts 225, 226 are positioned proximal to the front wall 280 because such positioning results in somewhat greater free floor space than would have resulted if, for example, the posts 225, 226 had been positioned adjacent to the rear wall 282. The mounting element 218 is integrally attached to the front wall 280 (i.e., and is not attached to the rear wall 282) in order to locate the posts 225, 226 proximal to the front wall 280.
In addition, the mounting element 218 includes a bumper 240 connected to the posts 225, 226 by one or more connecting members 242. Each connecting member 242 is integrally attached to the front wall 280 of the body 214, as will be described. In addition, each connecting member 242 extends through the front wall 280 to support an exposed part 241 of the bumper 240 a predetermined distance outside the front wall 280, for protecting the body 214. Each connecting member 242 is preferably also directly connected to one of the posts 225, 226 respectively to strengthen the mounting element 218. As shown in
As can be seen in
The body 214 is preferably made using rotational molding, and the bollard 210 is preferably made in a rotational mold accordingly. The mounting element 218 is first placed in the mold, and the hot plastic material is then added into the mold. As discussed, a plastic body formed using rotational molding is virtually stress-free and has other advantages, as is known in the art. However, as the plastic in the body 214 cools, it bonds with the wall contact portions 245 (of the connecting members 242) and the wall contact portions 285, 287 (of the bumper 240), resulting in integral attachment (
The body 214 also includes an end wall portion 248 to which each post 225, 226 is integrally attached (
As can be seen in
However, as can be seen in
In the preferred embodiment, the external parts 224 of the posts 225, 226 are received in receptacles 60 (
It will be appreciated by those skilled in the art that the invention can take many forms, and that such forms are within the scope of the invention as claimed. Therefore, the spirit and scope of the appended claims should not be limited to the description of the preferred version contained herein.
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|U.S. Classification||404/9, 116/63.00P, 256/13.1|
|International Classification||E01F9/677, E01F15/00, E01F15/14|
|Cooperative Classification||E01F9/677, E01F15/141|
|European Classification||E01F15/14B, E01F9/013|
|Jun 22, 2004||AS||Assignment|
Owner name: REDICO, INC., GEORGIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:LOBBAN, GRAHAM C.;REEL/FRAME:015498/0324
Effective date: 20040608
Owner name: RTS PLASTICS INC., CANADA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:LOBBAN, GRAHAM C.;REEL/FRAME:015498/0324
Effective date: 20040608
|Mar 19, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Mar 1, 2013||FPAY||Fee payment|
Year of fee payment: 8